CN217783617U - Multi-cavity cooling kettle and vehicle thereof - Google Patents

Abstract

The utility model relates to the technical field of vehicle cooling, in particular to a multi-cavity cooling kettle and a vehicle thereof, which comprises a kettle body, wherein a plurality of liquid storage cavities which are not communicated with each other are arranged in the kettle body, a partition cavity for separating the adjacent liquid storage cavities is arranged between the adjacent liquid storage cavities, a plurality of connecting plates for connecting the adjacent two liquid storage cavities are arranged in the partition cavity, a gap is arranged on each connecting plate, and an exhaust hole is formed in the partition cavity in a penetrating way from the inner wall to the outer wall; the utility model discloses with a plurality of stock solution chambeies integration in a kettle, saved installation space, and reduced cost and weight, and utilize to cut off the chamber and separate adjacent stock solution chamber, can avoid producing the heat transfer between the two, cut off the connecting plate of intracavity and improved the structural strength of kettle body, breach on the connecting plate can provide the deformation space to can avoid connecting the position fracture.

Description

Multi-cavity cooling kettle and vehicle thereof

Technical Field

The utility model relates to a vehicle cooling technology field especially relates to a multicavity cooling kettle and vehicle thereof.

Background

The kettle is a main part in a cooling system of an automobile, is used for storing cooling liquid and participates in a cooling circulation loop, is used for adjusting the pressure of the cooling system, storing and compensating the cooling liquid, provides an expansion space for the cooling liquid and ensures the circulation capacity of the cooling liquid.

With the advent of electric vehicles and hybrid vehicles, batteries, motors, and the like are added to components to be cooled in addition to an engine, and the operating temperatures of the components to be cooled are different, so that an individual kettle needs to be provided for each component, a plurality of kettles occupy a large space, and the cost and weight are increased.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to solve the problems that a plurality of cooling parts in the prior art need to be provided with independent kettles due to different working temperatures, a plurality of kettles occupy larger space and increase the cost and the weight, the multi-cavity cooling kettle is provided.

In order to solve the technical problem, the utility model adopts the following technical scheme: a multi-cavity cooling kettle comprises a kettle body, wherein the kettle body comprises an upper shell and a lower shell, a cavity for storing cooling liquid is formed between the upper shell and the lower shell, the cavity is divided into a plurality of liquid storage cavities which are not communicated with each other through a baffle, the liquid storage cavities are independently arranged and used for storing the cooling liquid, and the liquid storage cavities are respectively communicated with corresponding cooling channels to cool different parts, such as an engine, a battery or a motor;

a partition cavity for separating the two adjacent liquid storage cavities is arranged between the two adjacent liquid storage cavities, and the partition cavity is not communicated with the adjacent liquid storage cavities, so that the temperature difference exists due to the different temperatures of the cooling liquid in the liquid storage cavities because the liquid storage cavities are used for cooling different parts, and a cavity mechanism arranged in the partition cavity can better isolate the two liquid storage cavities compared with a baffle plate, thereby avoiding the heat transfer between the two adjacent liquid storage cavities;

cut off intracavity portion and be equipped with the connecting plate in a plurality of adjacent stock solution chambeies of connection, the connecting plate supports the structural strength that can improve the kettle body in inside, just set up jaggedly on the connecting plate, reducible heat transfer that leads to by the connecting plate, and when cutting off intracavity temperature rising, the connecting plate is heated, and the breach can provide the deformation space for it to can avoid the connection site fracture, cut off the chamber and run through from the inner wall to the direction of outer wall and set up the exhaust hole, can be with its inside air escape in the exhaust hole of outside intercommunication, avoid cutting off intracavity temperature rising air inflation back to connecting plate and cut off the chamber lateral wall and produce pressure too big deformation that leads to.

Above-mentioned technical scheme is integrated in a kettle with a plurality of stock solution chambeies, has saved installation space, and reduced cost and weight, and utilizes to cut off the chamber and separate adjacent stock solution chamber, can avoid producing the heat transfer between the two, cuts off the connecting plate of intracavity and has improved the structural strength of kettle body, and breach on the connecting plate can provide the deformation space to can avoid the connection position fracture.

Further, every stock solution intracavity portion all is equipped with a plurality of baffles, and the baffle can improve the holistic structural strength of casing, just set up the opening that supplies the coolant liquid to pass through on the baffle, the baffle divide into the loculus of a plurality of intercommunications with every stock solution chamber, and the coolant liquid is filled in a plurality of loculus, can avoid large tracts of land liquid gathering to produce to rock and produce great impact and noise reduction to the casing.

Further, the stock solution chamber is equipped with inlet and liquid outlet, be connected with the drain passageway between inlet and the liquid outlet, the intercommunicating pore has been seted up on the drain passageway top is equipped with apron and the drain passageway, and the coolant liquid velocity of flow that gets into from the inlet is very fast, and it can produce the bubble with the shells inner wall between produce high-speed striking, leads to appearing the cavitation erosion phenomenon, and through the drain passageway, partly liquid directly gets into the water pump through the liquid outlet, and another part gets into the cavity by intercommunicating pore department, and the drain passageway can lead to the liquid flow direction, can slow down the liquid velocity of flow and avoid producing high-speed impact.

Furthermore, the liquid guide channel is of an arc-shaped structure, and the impact between the liquid and the inner wall of the liquid guide channel can be reduced by the arc-shaped structure.

Furthermore, the top of the cover plate is provided with a reinforcing plate, so that the structural strength of the cover plate is improved.

Further, stock solution chamber top is equipped with the filler, the filler slope sets up, and the filler is located the position that is close to the edge on the casing, and all leans out, when there is the sheltering from above that, and the filler of accessible slope adds the coolant liquid, consequently can save the installation space of kettle.

Furthermore, the filling port is formed independently, the structure of the filling port is complex, when the filling port and the shell are integrally formed, the mold is complex to manufacture, and the cost can be saved by connecting the filling port with the shell after the filling port is formed independently.

Further, install the water pump on the liquid outlet, the water pump includes the pump cover and the pump body, the pump cover can save the installation step with kettle body integrated into one piece, improves the installation effectiveness, is equipped with twice sealing washer between the pump cover and the pump body.

A vehicle comprises the multi-cavity cooling water kettle.

The utility model has the advantages that: the utility model discloses with a plurality of stock solution chamber integrations in a kettle, saved installation space, and reduced cost and weight, and utilize to cut off the chamber and separate adjacent stock solution chamber, can avoid producing the heat transfer between the two, cut off the connecting plate of intracavity and improved the structural strength of kettle body, breach on the connecting plate can provide the deformation space to can avoid connecting the position fracture.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a three-dimensional schematic view of the present invention;

fig. 2 is a front view of the present invention;

FIG. 3 isbase:Sub>A sectional view taken along A-A in FIG. 2;

FIG. 4 is a three-dimensional schematic view of the lower housing;

FIG. 5 is a three-dimensional schematic view of the lower housing with the cover removed;

FIG. 6 is a top view of the lower housing;

1. a kettle body; 101. a liquid storage cavity; 1011. a partition plate; 1012. a flow-through hole; 1013. a liquid inlet; 1014. A liquid outlet; 1015. a drainage channel; 1016. a cover plate; 1017. a communicating hole; 1018. a filling port; 1019. A reinforcing plate; 102. a partition cavity; 1021. a connecting plate; 1022. a notch; 1023. an exhaust hole;

2. a water pump; 201. a pump cover; 202. a pump body;

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The first embodiment is as follows:

as shown in fig. 1-6, the utility model relates to a multi-cavity cooling kettle, which comprises a kettle body 1, wherein the kettle body 1 comprises an upper shell and a lower shell, a cavity for storing cooling liquid is formed between the upper shell and the lower shell, the cavity is divided into a plurality of liquid storage cavities 101 which are not communicated with each other through baffles, the liquid storage cavities 101 are independently arranged, the liquid storage cavities 101 are used for storing the cooling liquid, and the liquid storage cavities 101 are respectively communicated with corresponding cooling channels thereof to cool different components, such as an engine, a battery or a motor;

a partition cavity 102 for partitioning the two adjacent liquid storage cavities 101 is arranged between the two adjacent liquid storage cavities 101, the partition cavity 102 is not communicated with the adjacent liquid storage cavities 101, and the liquid storage cavities 101 are used for cooling different parts, so that the temperatures of cooling liquid in the liquid storage cavities 101 are different, and temperature difference exists, and a cavity mechanism arranged in the partition cavity 102 can better isolate the two liquid storage cavities 101 compared with a baffle plate, so that heat transfer between the two adjacent liquid storage cavities 101 is avoided;

cut off intracavity 102 inside and be equipped with the connecting plate 1021 of a plurality of adjacent stock solution chambeies 101 of connection, connecting plate 1021 supports the structural strength that can improve kettle body 1 in inside, just seted up breach 1022 on the connecting plate 1021, reducible heat transfer that leads to by connecting plate 1021, and when cutting off intracavity 102 in the temperature rise, connecting plate 1021 is heated, breach 1022 can provide the deformation space for it, thereby can avoid the connection position fracture, cut off intracavity 102 and run through from the inner wall to the direction of outer wall and seted up exhaust hole 1023, can be with its interior air escape with the exhaust hole 1023 of outside intercommunication, avoid cutting off intracavity 102 inside temperature rise after the air inflation to connecting plate 1021 and cut off intracavity 102 lateral wall production pressure and too big lead to the deformation.

Every stock solution chamber 101 is inside all to be equipped with a plurality of baffles 1011, and baffle 1011 can improve the holistic structural strength of kettle body 1, just set up the opening 1012 that supplies the coolant liquid to pass through on the baffle 1011, baffle 1011 divide into the loculus of a plurality of intercommunications with every stock solution chamber 101, and the coolant liquid is filled in a plurality of loculus, can avoid large tracts of land liquid gathering to produce to rock and produce great impact and noise reduction to the casing.

The liquid storage cavity 101 is provided with a liquid inlet 1013 and a liquid outlet 1014, a liquid guide channel 1015 is connected between the liquid inlet 1013 and the liquid outlet 1014, the liquid guide channel 1015 is of an arc structure, the arc structure can reduce the impact between the liquid and the inner wall of the liquid guide channel 1015, the top of the liquid guide channel 1015 is provided with a cover plate 1016, the liquid guide channel 1015 is provided with a communicating hole 1017, and the top of the cover plate 1016 is provided with a reinforcing plate 1019 to improve the structural strength of the cover plate 1016; the cooling liquid flow rate that gets into from inlet 1013 is very fast, and it can produce the bubble with the high-speed striking between the shells inner wall, leads to appearing the cavitation phenomenon, and through drain channel 1015, partly liquid directly gets into water pump 2 through liquid outlet 1014, and another part is got into the cavity by intercommunicating pore 1017 department, and drain channel 1015 can lead to the liquid flow direction, can slow down liquid flow rate and avoid producing high-speed impact.

Stock solution chamber 101 top is equipped with filling port 1018, filling port 1018 slope sets up, and filling port 1018 is located the position that is close to the edge on the casing, and all leans out, when there is the sheltering from above that, and the filling port 1018 of accessible slope adds the coolant liquid, consequently can save the installation space of kettle, filling port 1018 individual molding, filling port 1018 structure is comparatively complicated, when with casing integrated into one piece, the mould preparation is comparatively complicated, can practice thrift the cost with being connected with the casing behind the filling port 1018 individual molding.

Install water pump 2 on the liquid outlet 1014, water pump 2 includes pump cover 201 and pump body 202, installation step can be saved with 1 integrated into one piece of kettle body to pump cover 201, improves the installation effectiveness, improves sealed effect, and is equipped with the twice sealing washer between pump cover 201 and the pump body 202.

Example two:

a vehicle comprises the multi-cavity cooling water kettle.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A multi-cavity cooling water kettle is characterized in that: the kettle comprises a kettle body (1), wherein a plurality of liquid storage cavities (101) which are not communicated with each other are arranged in the kettle body (1), and a partition cavity (102) for separating the adjacent liquid storage cavities (101) is arranged between the two liquid storage cavities;

the liquid storage cavities (101) are used for storing cooling liquid, and the liquid storage cavities (101) are respectively communicated with the corresponding cooling channels;

cut off intracavity (102) inside connecting plate (1021) that are equipped with two adjacent stock solution chambeies of a plurality of connections (101), breach (1022) have been seted up on connecting plate (1021), and cut off intracavity (102) and run through from the inner wall to the direction of outer wall and seted up exhaust hole (1023).

2. A multiple cavity cooling kettle according to claim 1, wherein: a plurality of partition plates (1011) are arranged inside each liquid storage cavity (101), and circulation holes (1012) for cooling liquid to pass through are formed in the partition plates (1011).

3. A multiple cavity cooling kettle according to claim 1, wherein: every stock solution chamber (101) all is equipped with inlet (1013) and liquid outlet (1014), be connected with drain passage (1015) between inlet (1013) and liquid outlet (1014), drain passage (1015) top lid is equipped with apron (1016) and drain passage (1015) and sets up intercommunicating pore (1017) with corresponding stock solution chamber (101) intercommunication.

4. A multiple cavity cooling kettle according to claim 3, wherein: the liquid guide channel (1015) is of an arc-shaped structure.

5. A multiple cavity cooling kettle according to claim 3, wherein: and a reinforcing plate (1019) is arranged at the top of the cover plate (1016).

6. A multiple cavity cooling kettle according to claim 1, wherein: a filling port (1018) is formed in the top of the liquid storage cavity (101), and the filling port (1018) is obliquely arranged.

7. A multi-chamber cooling kettle according to claim 6, characterized in that: the filler neck (1018) is formed separately.

8. A multiple cavity cooling kettle according to claim 3, wherein: install water pump (2) on liquid outlet (1014), water pump (2) are including pump cover (201) and pump body (202), pump cover (201) and kettle body (1) integrated into one piece.

9. A vehicle, characterized in that: comprising a multi-chamber cooling kettle according to any of claims 1-8.

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